Vertiq 60-08 150Kv

P21x6.3R

Philadelphia, PA USA | 15m | 25.8 C | 29.84 in Hg | 45.6% Humidity

Commanded Voltage (V) Supply Voltage (V) Supply Current (A) Input Power (W) Speed (RPM) Torque (Nm) Motor-Controller Efficiency (%) Thrust (g) Propulsion Efficiency (g/W) State of Operation
2.0 48.3 0.1 2 270 0.01 9.8 10 4.1 Continuous
4.0 48.3 0.1 4 530 0.02 26.9 40 10.0 Continuous
6.0 48.3 0.1 7 800 0.04 44.9 90 13.4 Continuous
8.0 48.3 0.2 12 1080 0.06 55.9 160 13.6 Continuous
10.0 48.3 0.4 19 1360 0.09 64.0 260 13.6 Continuous
12.0 48.3 0.6 29 1640 0.12 71.5 400 13.8 Continuous
14.0 48.3 0.9 43 1920 0.16 75.5 560 13.0 Continuous
16.0 48.3 1.3 62 2190 0.21 78.5 750 12.1 Continuous
18.0 48.3 1.7 83 2460 0.26 80.8 950 11.5 Continuous
20.0 48.2 2.3 111 2720 0.32 82.5 1200 10.9 Continuous
22.0 48.2 2.9 140 2980 0.38 83.6 1420 10.1 Continuous
24.0 48.2 3.7 177 3240 0.44 84.3 1700 9.6 Continuous
26.0 48.2 4.5 217 3480 0.50 84.5 1980 9.1 Continuous
28.0 48.2 5.5 265 3720 0.57 84.1 2250 8.5 Continuous
30.0 48.1 6.6 315 3960 0.64 84.5 2550 8.1 Continuous
32.0 48.1 7.6 366 4180 0.72 85.5 2880 7.9 Continuous
34.0 48.1 9.0 435 4390 0.80 84.6 3250 7.5 Continuous
36.0 48.0 10.2 492 4600 0.87 84.9 3520 7.2 Continuous
38.0 48.0 11.8 566 4800 0.95 83.9 3850 6.8 Continuous
40.0 47.9 13.3 636 4990 1.02 83.8 4180 6.6 Continuous
42.0 47.9 14.9 712 5180 1.09 83.0 4460 6.3 Continuous*
44.0 47.9 16.7 798 5350 1.17 82.2 4800 6.0 Continuous*
46.0 47.8 18.0 862 5520 1.24 83.0 5090 5.9 Continuous*
48.0 47.8 19.7 941 5640 1.30 81.9 5390 5.7 Intermittent

All data is rated for normal temperature and pressure (NTP).
Performance is degraded at higher temperatures and lower pressures.
Performance in the "Continuous" region should not cause motor or ESC overheating when using the Default or Pro Kits.
Performance in the "Continuous*" region should not cause motor or ESC overheating when using the Performance Kit.
Performance in the "Continuous*" region is classified as intermittent when not using the Performance Kit.
Performance in the "Intermittent" region will cause overheating with prolonged use.